RU2648116C1 - Shelter - Google Patents

Abstract

FIELD: construction.

SUBSTANCE: invention relates to a technique for preventing earthquake consequences. Proposed shelter contains the main room in the form of an earthquake-proof structure, which has interconnected walls, overlapping and base made of interconnected concrete reinforced panels, entrance equipped with a sluice, and life support system, the main room is equipped with a block quick-erect earthquake-proof construction containing a system of blocks and connecting elements connected in a single structure, wherein it consists of elements made in the form of blocks, one of which is made in the form of a rectangular parallelepiped with grooves made on four faces of the parallelepiped, in the plane of its symmetry, wherein the grooves are made with cylindrical holes for the outer diameter of the cylindrical body of the connecting element, and the other blocks are interfaced with the first ones and are made in the form of a rectangular parallelepiped with spikes made on four faces of the parallelepiped, spikes being provided with cylindrical holes for the outer diameter of the cylindrical body of the connecting member, wherein the surfaces of the grooves and studs are equidistant, congruent and equal in size and are connected to a block prefabricated structure by means of connecting elements, wherein the connecting element for the blocks of the seismic resistant structure consists of an elastic cylindrical body with mounting discs fixed at its ends, wherein the cavity of the cylindrical body is filled with a damping material, and the body is made of two flanged, oppositely disposed and coaxial cylindrical threaded sleeves with fixed mounting discs to their end part, on which the elements for threading the sleeves into a single cylindrical body are made, and is made of an elastic material, for example, from an elastic spring steel, the cavity of which is filled with a damping material, for example a shock-absorbing mastic of the "VD-17" type, and within the cylindrical body of the connecting element an elastic core is arranged in axial alignment and coaxially to the connecting element, along the axis of the elastic core damping disks are rigidly fixed along the entire length of the cavity, wherein the extreme disks are fixed to the mounting discs of the shock-absorbing material, while there are helical coil springs in the cavities between the disks. At least three resilient rods are arranged coaxially to the elastic core of the connecting element, inside the resilient cylindrical body, their rigidity is less than the rigidity of the elastic core, they are fixed in the damping disks in such a way that their external surfaces touch the inner surfaces of the helical coil springs.

EFFECT: reduction of the time of construction of the shelter due to the framing of the frame with a block closed structure.

1 cl, 9 dwg

Description

The invention relates to techniques for preventing the effects of earthquakes.

The closest technical solution to the claimed object is the bunker according to the patent of the Russian Federation No. 114703, including the main room, having interconnected walls, a ceiling and a base made of interconnected concrete reinforced panels, an entrance equipped with a gateway, and a life support system containing a fence air, the panels are small-sized and made of fiber-reinforced concrete or high-strength reinforced concrete, while the hopper contains an emergency exit equipped with a lock chamber made of elements, ul married underground, and connected to a well located far from the house, and an outlet for air intake, made in the form of a riser of fiber-reinforced or high-strength reinforced concrete panels, equipped with a head with holes, while pipes pass through the cavity of the riser to the head atmospheric analysis sensors.

A disadvantage of the known construction is the relatively long construction time of the shelter.

EFFECT: reduced time for erecting a shelter by equipping the frame with a block closed structure.

This is achieved by the fact that in the shelter containing the main room in the form of an earthquake-resistant structure having interconnected walls, a ceiling and a base made of interconnected concrete reinforced panels, an entrance equipped with a gateway and a life support system, the main room is equipped with a quick-assembled earthquake-resistant block a structure containing a system of blocks and connecting elements connected to a single structure, it consists of elements made in the form of blocks, some of which are made in the form of a rim-shaped parallelepiped with grooves made on four faces of the parallelepiped in the plane of its symmetry, while the grooves are made with cylindrical holes for the outer diameter of the cylindrical body of the connecting element, and the other blocks are paired with the first and made in the form of a rectangular parallelepiped with spikes made on four faces parallelepiped, while the spikes are made with cylindrical holes for the outer diameter of the cylindrical body of the connecting element, and the surface of the grooves and the spike They are equidistant, congruent and equal and are connected into a quick-assembled block structure by means of connecting elements, moreover, the connecting element for earthquake-resistant building blocks consists of an elastic cylindrical body, with mounting disks fixed at its ends, while the cavity of the cylindrical body is filled with damping material, and the body is made of two flanged, opposed and coaxial cylindrical threaded bushings, with rigidly attached to their end h There are mounting discs on which elements are made for threaded connection of the bushings into a single cylindrical body and made of elastic material, for example, spring-loaded steel, the cavity of which is filled with damping material, for example, VD-17 vibro-damping mastic, and inside the cylindrical body element coaxially and coaxially to it is an elastic core, along the axis of which damping disks are rigidly fixed along the entire length of the cavity, while the extreme disks are fixed with installation claims of vibration damping material, wherein in the cavities between the discs arranged cylindrical helical spring.

In FIG. 1 shows a general scheme of a shelter with a block enclosed structure; FIG. 2 is a structural diagram of a block prefabricated closed structure; FIG. 3 and 4 are axonometric projections of blocks with grooves and spikes for a prefabricated block closed structure, in FIG. 5 is a general view of a connecting element for a block closed structure; FIG. 6-9 are variants of a connecting element for a block closed structure of a shelter.

The shelter (Fig. 1) contains a frame, a gateway, places to place evacuated people, a filtering and ventilation device, a toilet, and supplies of water and food. To reduce the time for building a shelter, it is additionally equipped with a block closed structure (Fig. 2) connected to the shelter frame.

The block construction (Figs. 3 and 4) consists of elements made in the form of blocks, one of which is made in the form of a rectangular parallelepiped 12 with grooves 13 made in the plane of symmetry on the four faces of the parallelepiped 12 (in Fig. 3 shows one groove made on one of the bases of the box 12). In this case, the grooves 13 are made with cylindrical holes 14 for the outer diameter of the cylindrical body 3 of the connecting element (Fig. 5-7).

The other blocks 15 (Fig. 4) of the quick-assembled block construction, which are paired with the first, are made in the form of a rectangular parallelepiped with spikes 16 made in the plane of symmetry on the four faces of the parallelepiped 15 (Fig. 4 shows one spike made on one of the bases of the parallelepiped fifteen). In this case, the spikes 16 are made with cylindrical holes 17 for the outer diameter of the cylindrical body 3 of the connecting element (Fig. 5-7). The surface of the grooves 13 and the spikes 16 are equidistant, congruent and isometric and are connected in a block quick-mounted seismic-resistant design by means of connecting elements.

Each connecting element (Fig. 5) for blocks of an earthquake-resistant structure (Fig. 1) is installed in prepared holes made in blocks, and the blocks are alternating in a row: one block is made with spikes at the ends, and the other with grooves, while connecting the blocks carried out by means of connecting elements into pre-prepared and coaxially located holes.

The connecting element (Fig. 6) consists of two flange, opposite and coaxial cylindrical threaded bushings 5 and 6 with mounting discs 1 and 2 rigidly attached to their end part, on which elements are made for threaded connection of 4 bushings into a single cylindrical body 3, for example, turnkey flats (not shown in the drawing).

The connecting element is made damping, consisting of an elastic cylindrical body 3 (Fig. 6), made of an elastic material, for example of elastic spring steel, the cavity of which is filled with damping material, for example, VD-17 vibration damping mastic.

A possible embodiment (Figs. 5 and 7) of a connecting element with a cylindrical tubular damping element 7 coaxially and coaxially located inside the housing 3, consisting of a cylindrical shell with bases 8 and 9, made of a rigid elastic vibration-damping material, for example, such as "Agate", internal cavity 12 which is filled with damping material, for example sand or vibration damping mastic of the type "VD-17". The inner cavity 11 of the connecting element between the cylindrical body 3 and the outer surface of the cylindrical shell of the cylindrical tubular damping element 7 is filled with a less rigid vibration damping material, for example polyurethane.

A possible embodiment of a connecting element for blocks of an earthquake-resistant structure is when the mounting discs 1 and 2 are rigidly attached to flange opposed cylindrical threaded bushings 5 and 6 and are made combined, consisting of at least three layers: the outer ones are rigid and the third layer located between them, made damping (not shown in the drawing).

A variant (Fig. 8) of the connecting element for blocks of earthquake-resistant structures is possible, when an elastic core 14 is coaxially located inside the elastic cylindrical body 13, damping disks 15 are rigidly fixed along the entire length of the cavity, while the extreme disks are fixed with installation disks 1 and 2 of vibration damping material, while helical coil springs 16 are located in the cavities between the disks.

The connecting element for blocks of earthquake-resistant structures works as follows. During seismic vibrations, the displacement of blocks interconnected by connecting elements occurs, which leads to elastic deformation of their elastic cylindrical body 3 made of an elastic material, the cavity of which is filled with damping material, which leads to a decrease in the vibrations of the blocks even in resonant modes of seismic or vibrational effects. In this case, the blocks, due to the damping of vibrations by the connecting elements, maintain the integrity of the structure.

A variant is possible (Fig. 9), when at least three elastic rods 17 of lesser stiffness than the stiffness of the elastic core 14, which are fixed in the damping disks 15 in such a way that they are located coaxially to the elastic core 14 of the connecting element, inside the elastic cylindrical body 13 the outer surfaces touch the inner surfaces of the coil springs 16.

Claims (1)

Shelter containing the main room in the form of an earthquake-resistant structure, having interconnected walls, a ceiling and a base made of interconnected concrete reinforced panels, an entrance equipped with a gateway, and a life support system, the main room is equipped with a quick-erected earthquake-resistant block structure that is connected into a single a system of blocks and connecting elements, while it consists of elements made in the form of blocks, some of which are made in the form of rectangular pairs allelepiped with grooves made on four faces of the parallelepiped in the plane of its symmetry, while the grooves are made with cylindrical holes for the outer diameter of the cylindrical body of the connecting element, and the other blocks are paired with the first and made in the form of a rectangular parallelepiped with spikes made on four faces of the parallelepiped while the spikes are made with cylindrical holes for the outer diameter of the cylindrical body of the connecting element, and the surface of the grooves and spikes are equid true, congruent and equal and are connected in a quick-assembled block structure by means of connecting elements, the connecting element for earthquake-resistant building blocks consists of an elastic cylindrical body with mounting disks fixed at its ends, while the cavity of the cylindrical body is filled with damping material, and the body is made of two flange , opposite and coaxial cylindrical threaded bushings with installation dangers rigidly attached to their end parts suits, on which the elements for threaded connection of the bushings into a single cylindrical body are made, and made of an elastic material, for example, elastic spring steel, the cavity of which is filled with damping material, for example, VD-17 type vibration-damping mastic, and coaxially inside the cylindrical body of the connecting element and coaxially to it there is an elastic core, along the axis of which damping disks are rigidly fixed along the entire length of the cavity, while the extreme disks are fixed with mounting disks from vibration dampers at the same time, in the cavities between the disks there are helical coil springs, characterized in that at least three elastic rods of lower stiffness than the stiffness of the elastic core, which are fixed in the damping disks in such coaxially to the elastic core of the connecting element, inside the elastic cylindrical body so that their outer surfaces touch the inner surfaces of coil springs.

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